KR101098041B1 - Subway fire-sensing system and control method thereof - Google Patents

Abstract

This invention prevents a malfunction of the fire alarm in a passenger car through the fire detection sensor part installed in the passenger car and the auxiliary sensor part which monitors the environment around the said fire monitoring sensor part, and raises the accuracy of the fire alarm of the fire monitoring sensor part. Regarding the subway fire monitoring system and its control method, which can minimize the damage to the malfunction or detection,
Fire sensing sensor unit for detecting the fire in the passenger car, auxiliary sensor unit for sensing the surrounding environment of the fire monitoring sensor unit, and connected to the fire detection sensor unit and the auxiliary sensor unit and received sensing And a central control center for converting the information into a higher linking signal and transmitting the information, and a central control center for restoring the sensing information received from the gateway and monitoring the fire based on the restored sensing information.

Description

Subway fire monitoring system and control method {SUBWAY FIRE-SENSING SYSTEM AND CONTROL METHOD THEREOF}

The present invention relates to a subway fire monitoring system and a control method thereof. More specifically, a fire alarm in a passenger car is provided through a fire detection sensor unit installed in a passenger car and an auxiliary sensor unit for monitoring an environment around the fire monitoring sensor unit. The present invention relates to a subway fire monitoring system and a control method thereof, which prevents a malfunction and minimizes damage to a malfunction or a false detection by increasing the accuracy of a fire alarm of a fire monitoring sensor unit.

If there is a fire in the subway, which is used by many people every day, it is very important to prevent the occurrence of a large accident by quickly detecting it using a fire sensor.

However, the non-fire alarm issuance of the fire alarm due to the malfunction of the fire detection sensor installed in the subway is pointed out as the biggest problem in the operation of the current fire monitoring system.

When a non-fire alarm is issued due to a malfunction of the fire detection sensor, the train is stopped and the operation is restarted after checking whether there is a fire. As the subway is delayed, not only does it cause great inconvenience to passengers using the subway, but also the damage caused by the subway is considerably greater.

Among the causes of the malfunction of the fire detection sensor, the largest proportion is due to the large number of fine dust and high humidity and temperature present in the underground space. That is, since the history of the subway in which the fire detection sensor is installed is mainly located underground, a malfunction occurs due to the fine dust and humidity generated in the underground space.

In addition, the fire detection sensor is grouped and managed as a zone, so it is difficult to know the exact location when a fire occurs, and it is difficult to systematically and completely manage such a sensor to determine which sensor to be repaired when a problem occurs for each sensor. have.

An object of the present invention is to solve the conventional problems as described above, by using an auxiliary sensor to improve the malfunction of the fire detection sensor unit installed inside the passenger car, the fire alarm in the passenger car does not malfunction, subway fire monitoring It is to provide a system and a control method thereof.

Another object of the present invention, through the fire detection sensor unit installed in the passenger car and the auxiliary sensor unit for monitoring the environment around the fire monitoring sensor unit to increase the accuracy of the fire alarm of the fire monitoring sensor unit to minimize the damage to malfunction or false detection. It is possible to provide a subway fire monitoring system and a control method thereof.

As a means for achieving the above object, the configuration of the present invention, the fire detection sensor unit for detecting the presence of a fire in the carriage, the auxiliary sensor unit for sensing the environmental information of the fire monitoring sensor unit, and It is connected to a fire detection sensor unit and an auxiliary sensor unit, the gateway unit for converting and transmitting the received sensing information into a higher interlocking signal, and restores the sensing information received from the gateway unit based on the restored sensing information Including the central control center to monitor the fire.

The configuration of the present invention is preferably such that the fire detection sensor unit includes a plurality of fire detection sensors.

The configuration of the present invention, it is preferable that the auxiliary sensor unit is made of a plurality of USN environmental sensor.

The configuration of the present invention is preferably such that the above-described gateway portion is composed of a plurality of USN gateways.

The configuration of the present invention is that the gateway includes a transmitter, a converter, and a receiver, and the receiver is a USN sensor through an IEEE 802.15.4 ZigBee based wireless sensor network connected to a USN sensor node. Receives the sensing information from the node, and transmits the received sensing information in this way to the conversion unit, the conversion unit converts the received sensing information for interworking with the heterogeneous network to a higher interlocking signal, the sensing information thus converted Is transmitted to the transmitting unit, and the transmitting unit is preferably transmitted to the central control center.

It is preferable that the structure of the present invention is that the aforementioned type network is made of any one selected from Optic, Ethernet, WLAN, CDMA, and Wibro.

According to one aspect of the present invention, the plurality of fire detection sensors, the plurality of USN environmental sensors, and the plurality of USN gateways form a wireless sensor network, and the sensing information of the wireless sensor network is centrally controlled. It is desirable to be sent to the center.

In the configuration of the present invention, it is preferable that the sensing information includes a node ID unique to the USN sensor node and location information of the USN sensor node in addition to information for fire monitoring and environment information around the fire monitoring sensor.

In the configuration of the present invention, it is preferable that the above-described environmental information includes information on temperature, humidity, and fine dust.

In another aspect of the present invention as a means for achieving the above object, the step of collecting the sensing information for detecting the fire occurrence of the passenger car through a fire detection sensor unit consisting of USN sensor nodes attached to the inside of the subway history; Collecting sensing information on the location information of the fire detection sensor unit through an auxiliary sensor unit including USN sensor nodes attached to detect an environment around the fire monitoring sensor unit, and wireless based on IEEE 802.15.4 ZigBee At the gateway connected to the USN sensor node through a sensor network, converting the received sensing information into an upper interworking signal for interworking with heterogeneous networks, and transmitting the converted upper interworking signal to sensing information; Monitoring the safety of the vehicle internal structure based on the restored sensing information, and determining that a fire has occurred. To comprise a step of a fire alarm triggered and follow up if.

Another configuration of the present invention is preferable that the sensing information includes a node ID unique to the USN sensor node and location information of the USN sensor node in addition to the information for the fire monitoring and the environment information around the fire monitoring sensor.

According to another aspect of the present invention, it is preferable that the environmental information includes information on temperature, humidity, and fine dust.

Another configuration of the present invention is preferable if the above-described network is made of any one selected from Optic, Ethernet, WLAN, CDMA, and Wibro.

The present invention has the effect of receiving the fire detection information from the USN sensor node, detects the exact fire in the central control center, minimizes the damage caused by the malfunction, and efficiently maintain the facility.

1 is a block diagram of a subway fire monitoring system according to an embodiment of the present invention.
2 is an installation configuration of the subway fire monitoring system according to an embodiment of the present invention.
3 is a block diagram of a gateway of a subway fire monitoring system according to an embodiment of the present invention.
4 is a block diagram of a control method of a subway fire monitoring system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in order to describe in detail enough to enable those skilled in the art to easily carry out the present invention. . Other objects, features, and operational advantages, including the purpose, operation, and effect of the present invention will become more apparent from the description of the preferred embodiments.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment in order to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment Rather, various changes, additions, and changes are possible within the scope without departing from the spirit of the present invention, as well as other equivalent embodiments.

As shown in Figure 1 and 2, the configuration of the subway fire monitoring system according to an embodiment of the present invention, the fire detection sensor unit 2 for detecting the presence of a fire in the passenger car, and the fire It is connected to the auxiliary sensor unit 1 for sensing the surrounding environment of the monitoring sensor unit 2 and the fire detection sensor unit 2 and the auxiliary sensor unit 1 and receives the received sensing information as a higher interlocking signal. Gateway unit 4 for converting and transmitting, and the central control center (5) for restoring the sensing information received from the gateway unit 4 and monitoring the presence of a fire, based on the restored sensing information Is done.

The fire detection sensor unit 2 is composed of a plurality of fire detection sensors (112, 122, 132).

The auxiliary sensor unit 1 is composed of a plurality of USN environmental sensor (111, 121, 131).

The gateway unit 4 includes a plurality of USN gateways 114, 124, and 134.

The plurality of fire detection sensors 112, 122, 132, the plurality of USN environmental detection sensors 111, 121, 131, and the plurality of USN gateways 114, 124, 134 are wireless sensor networks. 119, 129 and 139, and the sensing information of the wireless sensor network 119, 129, 139 is transmitted to the central control center (5). In this case, one of the plurality of fire detection sensors 112, 122, and 132 and the USN environment detection sensors 111, 121, and 131 may be used as a ubiquitous sensor network sensor node, that is, a USN sensor node. It is called.

3 is a block diagram of a gateway of a subway fire monitoring system according to an embodiment of the present invention.

As shown in FIG. 3, the gateway 114 of the subway fire monitoring system according to an embodiment of the present invention includes a transmitter 114a, a converter 114b, and a receiver 114c.

The receiver 114c of the gateway 114 receives sensing information from the USN sensor node through the IEEE 802.15.4 ZigBee based wireless sensor network 119 connected to the USN sensor node. The sensing information is transmitted to the converter 114b.

The conversion unit 114b of the gateway 114 converts the received sensing information into a higher interlocking signal for interworking with the heterogeneous network (Optic, Ethernet, WLAN, CDMA, Wibro, etc.), and then converts the sensing information. The information is transmitted to the transmitter 114a, which transmits it to the central control center 5.

In addition to the information for fire monitoring and environmental information (temperature, humidity, fine dust, etc.) around the fire monitoring sensor, the sensing information includes a node ID unique to the USN sensor node and location information of the USN sensor node. It can be used to identify which sensor node is attached to which location of which structure.

The central control center 5 may store the sensing information transmitted from the gateway unit 4 and monitor the fire status and the safety state in the subway station on the basis of the sensing information. In addition, by generating an alarm sound or an alarm message according to the control command, and by transmitting the generated alarm sound or alarm message to the management agency of the structure, it is possible to make the management agency to respond to an emergency emergency.

4 is a block diagram of a control method of a subway fire monitoring system according to an embodiment of the present invention.

As shown in Figure 4, the configuration of the control method of the subway fire monitoring system according to an embodiment of the present invention, the fire occurrence detection of the passenger car through a fire detection sensor unit consisting of USN sensor nodes attached to the inside of the subway Collecting sensing information for the step (S500), and through the auxiliary sensor unit consisting of USN sensor nodes attached to detect the surrounding environment of the fire monitoring sensor unit for collecting the sensing information on the location information of the fire detection sensor unit In step S501 and the gateway connected to the USN sensor node through an IEEE 802.15.4 ZigBee based wireless sensor network, the received sensing information is converted into a higher interworking signal for interworking with a heterogeneous network and transmitted. And reconstructing the transformed higher interlocking signal into sensing information, and based on the restored sensing information. And monitoring the safety (S504) and, if it is determined that a fire has occurred, issuing a fire alarm and follow-up measures (S504).

By the above configuration, the operation of the subway fire monitoring system and its control method according to an embodiment of the present invention is as follows.

The central control center 5 collects sensing information for detecting the fire occurrence of the passenger car through the fire detection sensor unit 2 consisting of USN sensor nodes attached to the inside of the passenger car (S500).

In addition, the central control center (5) is an auxiliary sensor unit (1) consisting of USN sensor nodes attached to detect the environmental information such as temperature, humidity, fine dust around the fire monitoring sensor unit (2). The sensing environment information of the surrounding environment of the fire detection sensor unit 2 and the location information of the corresponding USN sensor node are collected (S501).

In the gateway 4 connected to the fire sensor 2 and the auxiliary sensor 1 of the USN sensor nodes via an IEEE 802.15.4 ZigBee based wireless sensor network, the received sensing information This is converted into a higher interlocked signal for interworking with heterogeneous networks and transmitted (S502).

The central control center 5 restores the converted upper linkage signal to sensing information, and monitors the safety of the vehicle internal structure based on the restored sensing information (S504).

Then, when it is determined that a fire has occurred, the central control center 5 issues a fire alarm and follow-up measures (S504).

In this way, by adding the auxiliary sensor unit 1 to the fire detection sensor unit 2 using the wireless sensor network, the malfunction rate of the fire detection sensor unit 2 can be reduced by improving the malfunction.

1: auxiliary sensor unit 2: fire detection sensor unit
4: Gateway part 5: Central control center

Claims (13)

Fire detection sensor unit for detecting the presence of fire in the carriage,
An auxiliary sensor unit for sensing the surrounding environment of the fire monitoring sensor unit;
A gateway unit connected to the fire detection sensor unit and the auxiliary sensor unit and converting the received sensing information into a higher interlocking signal and transmitting the same;
Restoring the sensing information received from the gateway unit and based on the restored sensing information, and comprises a central control center for monitoring the presence of a fire,
The fire detection sensor unit is made of a plurality of fire detection sensors,
The auxiliary sensor unit is made of a plurality of USN environmental sensor,
The gateway unit is composed of a plurality of USN gateways,
The gateway includes a transmitter, a converter, and a receiver,
The receiving unit receives sensing information from the USN sensor node through an IEEE 802.15.4 ZigBee based wireless sensor network connected to the USN sensor node, and transmits the received sensing information to the converting unit.
The converting unit converts the received sensing information for interworking with the heterogeneous network into a higher interlocking signal, and transmits the converted sensing information to the transmitting unit.
The transmitting unit transmits this to the central control center,
The model network described above is made of any one selected from Optic, Ethernet, WLAN, CDMA, Wibro,
The plurality of fire detection sensors, the plurality of USN environmental sensors and the plurality of USN gateways form a wireless sensor network, the sensing information of the wireless sensor network is transmitted to the central control center,
The sensing information includes a node ID unique to the USN sensor node and location information of the USN sensor node in addition to information for fire monitoring and environmental information around the fire monitoring sensor.
The environmental information of the subway fire monitoring system comprising the information on temperature, humidity, fine dust. delete delete delete delete delete delete delete delete Collecting sensing information for detecting a fire occurrence of a passenger car through a fire detection sensor unit comprising USN sensor nodes attached to an inside of a subway station;
Collecting sensing information on the location information of the fire detection sensor unit through an auxiliary sensor unit including USN sensor nodes attached to detect the surrounding environment of the fire monitoring sensor unit;
Converting the received sensing information into a higher interworking signal for interworking with a heterogeneous network in a gateway connected to the USN sensor node through an IEEE 802.15.4 ZigBee based wireless sensor network;
Restoring the converted upper linkage signal to sensing information and monitoring safety of a vehicle internal structure based on the restored sensing information;
If it is determined that a fire has occurred, including the step of issuing fire alarm and follow-up actions,
The sensing information includes a node ID unique to the USN sensor node and location information of the USN sensor node, in addition to information for fire monitoring and environmental information around the fire monitoring sensor.
The environmental information includes information on temperature, humidity, fine dust,
The model network described above comprises one selected from Optic, Ethernet, WLAN, CDMA, and Wibro. delete delete delete

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